Abstract: A method and apparatus of growing a thin film are provided. The method comprises at least (a) providing a number of substrates; (b) cleaning the substrates; and (c) placing the substrates into a reaction liquid; (d) vibrating the reaction liquid by ultrasonic waves such that a thin film is grown on the substrates evenly.

Abstract: A dehumidification device and an electrified desorption device thereof are provided. The electrified desorption device includes a conductive water-absorbing material containing titanosilicates; a conductive layer containing a metal component or a mixture of the metal component and graphite, attached to end surfaces at two sides of the water-absorbing material; a pair of electrode structures, coupled to the two sides of the water-absorbing material respectively and each having multiple sub-electrodes insulated from each other; and a voltage source, coupled to the pair of electrode structures. The electrodes are coupled to the conductive water-absorbing material, and the conductive water-absorbing material is directly electrified with a current, so that the conductive water-absorbing material generates heat to achieve a desorption effect, and further maintains a re-adsorbing capability to continue operation.

Abstract: An electrified desorption device, including a conductive water-absorbing material containing titanosilicates, wherein a ratio of silicon atoms to titanium atoms in the titanosilicates of the conductive water-absorbing material is 1 ? Si Ti ? 10 ; a conductive layer selected from the group consisting of a metal component, an alloy material, a conductive oxide component, and a mixture including either (a) more than one of the foregoing components or (b) the metal component, the alloy material, and graphite, attached to end surfaces at two sides of the water-absorbing material; a pair of electrode structures, coupled to two sides of the water-absorbing material respectively, and each having multiple sub-electrodes insulated from each other; and a voltage source, coupled to the pair of electrode structures.

Abstract: The present invention provides a device and system for desorption and dehumidification, comprising a conductive electrode, a moisture absorber, and a power source. The conductive electrode comprises a first surface and a second surface opposite to the first surface, and the first surface has a plurality of protrusion elements. The moisture absorber comprises a third surface formed on the plurality of protrusions. The power source provides power to the conductive electrode such that a uniform and stable micro-discharge phenomenon is generated thereby forming a continuous charge flow. The continuous charge flow can further generate an electrical interruption for depolarizing the attraction between the moisture molecules and moisture absorber whereby the moisture molecules can be desorbed from the moisture absorber more easily.

Abstract: A method and apparatus are provided for growing a composite metal sulphide photcatalyst thin film, wherein photochemical deposition and chemical bath deposition are both performed for growing the composite metal sulphide thin film, such as (AgInS2)x/(ZnS)2(1-x), wherein x is 0-1.

Abstract: A method and apparatus of growing a thin film are provided. The method comprises at least (a) providing a number of substrates; (b) cleaning the substrates; and (c) placing the substrates into a reaction liquid; (d) vibrating the reaction liquid by ultrasonic waves such that a thin film is grown on the substrates evenly.

Abstract: A method and apparatus of growing a thin film are provided. The method comprises at least (a) providing a number of substrates; (b) cleaning the substrates; and (c) placing the substrates into a reaction liquid; (d) vibrating the reaction liquid by ultrasonic waves such that a thin film is grown on the substrates evenly.

Abstract: The present invention provides a low power consumption desorption apparatus, which utilizes a pair of electrodes coupled to an absorbing material to provide an electric current flowing through the absorbing material so as to desorb the substances absorbed within the absorbing material. By means of the desorption apparatus of the present invention, the absorbing material is able to enhance the desorbing efficiency and reducing power consumption during desorption. The present invention further provides a dehumidifier using the low power consumption desorption apparatus for providing a continuous dry air flow to desorb and regenerate the moisture from the absorbing material so that the dehumidifier is capable of removing moisture in the air repeatedly to reduce the humidity.

Abstract: A method and an apparatus for desorption and a dehumidifier are provided in the present invention, in which an electrical potential is applied to electrodes disposed on both ends of an absorbing material so as to desorb the substances absorbed within the absorbing material whereby the absorbing material is capable of being maintained for cycling the absorbing operation. By means of the method and the apparatus of the present invention, the desorbing efficiency can be enhanced and the energy consumption can be reduced during desorption.

Abstract: Photo energy transformation catalysts and methods for fabricating the same are provided. The method includes mixing a solution containing a positive valence element of Group IB, a solution containing a positive valence element of Group IIIA, and a solution containing a negative valence element of Group VIA to obtain a composition and forming a film from the composition by liquid phase deposition, wherein the film contains compounds including the elements of Group IB, Group IIIA, and Group VIA.

Abstract: The present invention provides a low power consumption desorption apparatus, which utilizes a pair of electrodes coupled to an absorbing material to provide an electric current flowing through the absorbing material so as to desorb the substances absorbed within the absorbing material. By means of the desorption apparatus of the present invention, the absorbing material is able to enhance the desorbing efficiency and reducing power consumption during desorption. The present invention further provides a dehumidifier using the low power consumption desorption apparatus for providing a continuous dry air flow to desorb and regenerate the moisture from the absorbing material so that the dehumidifier is capable of removing moisture in the air repeatedly to reduce the humidity.

Abstract: A method and apparatus are provided for growing a composite metal sulphide photcatalyst thin film, wherein photochemical deposition and chemical bath deposition are both performed for growing the composite metal sulphide thin film, such as (AgInS2)x/(ZnS)2(1-x), wherein x is 0-1.

Abstract: A method and apparatus are provided for growing a composite metal sulphide photcatalyst thin film, wherein photochemical deposition and chemical bath deposition are both performed for growing the composite metal sulphide thin film, such as (AgInS2)x/(ZnS)2(1-x), wherein x is 0-1.

Abstract: Photo energy transformation catalysts and methods for fabricating the same are provided. The method includes mixing a solution containing a positive valence element of Group IB, a solution containing a positive valence element of Group IIIA, and a solution containing a negative valence element of Group VIA to obtain a composition and forming a film from the composition by liquid phase deposition, wherein the film contains compounds including the elements of Group IB, Group IIIA, and Group VIA.

Abstract: A field emission device includes a substrate, a first conductive layer formed over the substrate biased at a first voltage level, a second conductive layer formed over the substrate biased at a second voltage level different from the first voltage level, emitters formed on the first conductive layer and the second conductive layer for transmitting electrons, and a phosphor layer formed over the substrate and being disposed between the first conductive layer and the second conductive layer, wherein the electrons are transmitted from one of the first conductive layer and the second conductive layer through the phosphor layer to the other of the first conductive layer and the second conductive layer in a direction substantially orthogonal to the normal direction of the substrate.

Abstract: A method and an apparatus for desorption and a dehumidifier are provided in the present invention, in which an electrical potential is applied to electrodes disposed on both ends of an absorbing material so as to desorb the substances absorbed within the absorbing material whereby the absorbing material is capable of being maintained for cycling the absorbing operation. By means of the method and the apparatus of the present invention, the desorbing efficiency can be enhanced and the energy consumption can be reduced during desorption.

Abstract: A method and apparatus of growing a thin film are provided. The method comprises at least (a) providing a number of substrates; (b) cleaning the substrates; and (c) placing the substrates into a reaction liquid; (d) vibrating the reaction liquid by ultrasonic waves such that a thin film is grown on the substrates evenly.

Abstract: The present invention provides an array-like flat lighting source, which has an array of field emitter elements. The structure of the array of field emitter elements includes a substrate and a plurality of field emitter elements. The substrate has a plurality of grooves formed thereon and each of the field emitter elements is disposed in one of the grooves. The present field emission lighting source is spacer free, and its upper and lower substrates can be made of a same material to facilitate the maintenance of the vacuum. The array of field emitter elements can have an auxiliary conductive line for repair to guarantee normal operation of the light source if one of electrode lines becomes open.

Abstract: The present invention discloses a hydrogen storage medium including a composite of an alloy and a catalyst/expandable graphite. The expandable graphite can be replaced by activated carbon. The catalyst content is 1-50% based on the weight of the medium, which can be Pd, Pt, Cu, Co or Ni. The alloy can be a Mg-based alloy, Ti-based alloy, La-based alloy, Mn-based alloy or Fe-based alloy. The present invention also discloses a process for preparing a hydrogen storage composite.

Abstract: A method and apparatus are provided for growing a composite metal sulphide photcatalyst thin film, wherein photochemical deposition and chemical bath deposition are both performed for growing the composite metal sulphide thin film, such as (AgInS2)x/(ZnS)2(1-x), wherein x is 0-1.